A Gaussian size distribution of independently relaxing domains is used
to model the response of various glass-forming liquids. With a single
temperature-dependent parameter, the model accurately characterizes t
he observed dielectric susceptibility of salol and glycerol [P. K. Dix
on et al., Phys. Rev. Lett. 65, 1108 (1990); N. Menon et al., J. Non-C
ryst. Solids 141, 61 (1992)] over more than 13 orders of magnitude in
frequency. The quality and range of these data allow quantitative conf
irmation of all assumptions of the model. As a function of temperature
, the model gives excellent agreement with observed asymptotic relaxat
ion rates (w(infinity)) via [ln(/w(infinity))-ln(1/w0)] is-proportiona
l-to sBAR, where sBAR is a temperature-dependent average domain size,
and w0 a constant intrinsic relaxation rate. Thus, the model provides
a physical explanation for non-Arrhenius primary response, without res
orting to the three adjustable parameters of the Vogel-Tammann-Fulcher
law.